Device for the coupling of excavator teeth

ABSTRACT

The device is characterized by the coupling protuberance of the tooth in a zone which is adjacent to the base of the tooth and is comprised of side faces which are both inclined from said base towards the axis of the piece and from the lower edge inwardly, and also presenting an upper face inclined from top to bottom and a lower planar face, continued into a second zone which presents additionally planar faces extending from the lower edges of the protuberance and showing an inward inclination; the coupling protuberance is terminated by a posture section of which the side faces extend from an upper planar face which is parallel to the piece axis, and inclined inwardly and joining a unique lower face which is also planar and parallel to the piece axis and terminated at the planar extremity of the protuberance which is perpendicular to the piece axis.

FIELD OF THE INVENTION

The present invention refers to a device for the coupling of excavator teeth which is applicable to the buckets of excavating machines and, in general, to the active working edges of earth-moving-machines of similar types.

BACKGROUND OF THE INVENTION

Machines for civil engineering work which effect the removal of materials such as earth, rocks, etc., generally have active edges on the so-called buckets of the excavators, which are open receptacles of specific shape fixed to the supporting and travelling gear of the machine and which have the function of removing the mass of earth or earth and more or less loose stones, by means of their front edge, collecting in the bucket the materials which have been loosened, allowing them to be transferred to a vehicle for their transport to another site or simply for depositing the mass of earth and stones which has been removed, for its subsequent replacement, for example, in the case of the opening of a trench.

The buckets of excavators and the like suffer significant problems at the active edge because of the high degree of wear to which it is subjected by contact with the earth and stones, which have very abrasive characteristics. For this reason, it is necessary to equip the active edge of the excavator or similar machine with detachable teeth, which are removable components which bear the greater part of the wear by being in direct contact with the mass of earth and stones, and which are therefore parts which wear out very quickly. Said teeth, which are parts that can be exchanged fairly frequently, must combine characteristics which are to a certain extent contradictory, owing to the fact that, being parts which are changed frequently on excavating machines and the like, their price should be relatively low, so it is necessary to exclude mechanization of the teeth, which should be manufactured simply by casting or forging high strength steel. The other contradictory characteristic lies in the need for the mounting of the tooth on the tooth-carrier located at the active edge of the bucket for excavators or the like to be affected with sufficient adjustment to avoid as far as possible any play between the facing regions of the tooth-carrier and the tooth, since the occurrence, otherwise inevitable, of play in the said region results in an increase in the stresses at specific points of contact between the tooth and the tooth-carrier, which further increase the wear locally, in a process which may end in breakage of the parts and which involves changing the worn part, that is to say, the tooth, more or less frequently, according to how the above-mentioned wear phenomena can be controlled to a greater or lesser degree.

At present, many types of coupling between the teeth of excavators and the tooth-carriers are known, although all of them, given the contradictory conditions to be fulfilled and the hard work to which said components are subjected, exhibit defects with regard to what could be considered an ideal solution in terms of life of the tooth and avoidance of excessive wear on the tooth-carrier, enabling the latter to have an acceptably extended life.

U.S. Pat. No. 5,561,925 refers to a tooth assembly and retaining mechanism in which a nose portion matching with the socket of the tooth has parallel surfaces interconnected by a flat end surface.

U.S. Pat. No. 4,625,439 refers to an excavating tooth retaining means comprising a nose portion in which the tooth is fixed by means of a wedge in which the wear part lands directly against the holder.

However, none of said patents discloses the double inverted dovetail structure which characterizes the present invention.

In order to obtain an improvement in the characteristics of the couplings for excavator teeth, achieving rapidity of assembly and secure and durable coupling between the tooth and the tooth-carrier, the inventor of the present patent application has carried out investigations and tests which have resulted in a coupling for excavator teeth which has an improved performance in use.

DETAILED DESCRIPTION OF THE INVENTION

The coupling for excavator teeth and the like which is the subject of the invention is of the type which has a projection on the front face of the tooth-carrier, directed substantially axially with respect to the longitudinal axis of the tooth-carrier, and in which the cross-section of the tooth coupling region has a cross-section decreasing from the starting region to the free end, being characterized by the combination of the areas of contact between the tooth-carrier and the tooth, and the positioning of the retaining cotter pin, so that close coupling is obtained between the tooth and the tooth-carrier, giving rise to secure fastening, with many areas of contact between the two coupled components, for the purpose of reducing the local wear and with an arrangement of angles of the areas of contact such that the stresses produced on the tooth tend to produce greater wedging and matching of the tooth with the tooth-carrier. In order to obtain this result, the area coupling the tooth with the tooth-carrier has a structure which is constituted basically by the joining of two reverse dovetail profiles, that is to say, the dovetail at the first end region being inverted compared to the dovetail at the second end region, corresponding to the starting region and the free end or point of the so-called “nose” of the tooth-carrier respectively. This is complemented by a slightly convex structure, above all of the upper area of junction between the base or start of the nose of the tooth-carrier and the end or projection thereof which has a uniform section. The area of junction of the upper curved part of the nose of the tooth-carrier with the base thereof has a narrow flat transverse region. The lateral faces of the nose of the tooth-carrier assume the form of facets, one of them corresponding to the front projection of constant section and another to the lateral faces, which may be flat or gently curved with the convexity towards the outside.

With this arrangement the result is obtained that the nose of the tooth-carrier exhibits a much higher mechanical strength and, above all, in normal operation thereof no stresses are produced which tend to eject the tooth, which constitutes a recurrent problem of the currently known tooth-carriers. In particular, the slightly curved structure, with the convexity directed outwards, of the upper face of the nose of the tooth-carrier permits, in addition to a very efficient coupling between the tooth and the tooth-carrier, an increase in the cross-section of the nose of the tooth-carrier, and therefore a greater mechanical strength on the latter.

As described above, the upper surface of the tooth-carrier has an outwardly convex shape. Accordingly, the tooth cavity has a mirror image structure to allow the tooth to engage the tooth carrier. Thus, the upper surface of the tooth cavity has an inwardly concave shape. These shapes are illustrated in FIG. 13.

The device of the present invention is likewise characterized by a new type of cotter pin for retaining the tooth on the tooth-carrier, which is distinguished by its easy introduction and high resistance to removal, basically comprising a body of the cotter pin of flattened generally parallelepipedal structure, which on one of its intermediate sized faces has a wide rebate to which there is joined, by means of vulcanization of a special rubber, an insert carrying a small lateral projection with rounded transverse edges which is intended to be introduced into a seating of complementary shape of the tooth-carrier after its introduction.

For greater understanding there are appended, by way of explanatory but non-limiting example, drawings of a preferred embodiment of the present invention.

FIGS. 1 and 2 are views in elevation and in plan, respectively, of a tooth-carrier produced according to the present invention.

FIGS. 3 to 11 are sectional views through the section planes indicated in FIG. 1.

FIGS. 12 and 13 are respective sections through the section planes indicated.

FIG. 14 is a plan view of the assembly of tooth and tooth-carrier.

FIG. 15 is a longitudinal section in a vertical plane of the assembly of tooth and tooth-carrier as indicated.

FIG. 16 is a perspective view of the assembly of tooth and tooth-carrier when assembled.

As shown in the Figures, the coupling for excavator teeth which is the subject of the present invention has a fork-like part 1 intended for coupling with the edge of the excavator bucket and a region 2 that projects from the rear face 3 of the region 1 and is intended to receive the excavator tooth, indicated by 4 in FIGS. 12 and 14 and in FIGS. 15 and 16.

The region 1 for the coupling of the excavator to the bucket is fork-shaped with an upper arm 5 and a lower arm 6 which are separated by an indentation defined by flat areas 7 and 8 intended to receive the edge of the excavator bucket and which in plan have sections decreasing from the starting region 3 of the coupling 2 to the free end 9, the upper arm 5 also having flat lateral faces 10 and 11.

The tooth coupling projection 2 has a combination of successive regions, which is basically defined, as will be seen in FIGS. 3 to 11, by a structure constituted basically by two inverted dovetails or trapezoids, that is to say, the dovetail or trapezoid at the first end region being inverted compared to the dovetail or trapezoid at the second end region corresponding respectively to the starting area 12 of the tooth and to the end 13 of the projection 14 of the tooth-carrier, which correspondingly are complementary to the cavity of the tooth 4. The said projection 14, as shown by the sections provided, has a constant section throughout its length. For this reason, the lateral faces of the nose of the tooth-carrier 2 have a structure substantially formed by two facets gently differentiated so that one of the laterals corresponds respectively to the face 15 of the body of the nose of the tooth-carrier and the flat face 16 of the termination of constant section 14. The other lateral 17 has similar characteristics, having a wide indentation in a substantially vertical arrangement 18, which is intended to receive the cotter pin 19, which has been shown in greater detail in FIG. 15.

The upper face 20 of the nose of the tooth-carrier has a generally curved shape with the convexity directed outwards, joining the inner end of the projection 14 to the body 1 of the tooth-carrier by means of a small flat area in the area of junction with the said body indicated by 21 in FIG. 1 and also in FIG. 13.

The lateral faces 15 and 17 may be flat or curved, with the convexity directed outwards.

The construction of the nose of the tooth-carrier with the shape indicated makes it possible to obtain a much higher strength thereon, at the same time eliminating the reactions of ejection of the tooth which customarily occur in the currently known mountings for excavator teeth.

As will be observed in FIGS. 12 and 15, the cotter pin 19 has a flattened straight, generally parallelepipedal structure, having on one of its minor sides a wide indentation 22 in which, by means of a vulcanized coating 23, there is affected the joining of a straight insert 24, carrying a lateral projection 25, provided with rounded edges, which is engaged in a recess of complementary shape of the nose of the tooth-carrier.

This arrangement of the cotter pin therefore makes possible both its easy introduction by axial compression in its groove and sufficient retention thereof in the nose of the tooth-carrier. Withdrawal is also facilitated by the existence of the joining part of vulcanized rubber.

By means of the arrangement which has been explained, the coupling device for excavator teeth-which is the subject of the present invention makes it possible to fit the tooth with minimum play in all the coupling areas, as well as allowing numerous areas of contact in order to reduce local wear, and reduces the force components in the direction of erection of the tooth with respect to the tooth-carrier.

As it is obvious, this invention will cover the tooth holder as well as the tooth to be adapted to the same, which will have a form which is conjugated to the form of the mating tube holder, with cavities to receive the coupling device.

The characteristics of the cotter pin are also very advantageous, both as regards the ease of assembly and disassembly of the cotter pin and as regards the high holding force thereof. 

What is claimed is:
 1. A tooth-carrier device for coupling teeth to an excavator bucket of the type wherein each tooth has a connecting cavity therein, said device comprising: (a) a fork like part for attachment to the excavator bucket; (b) a projection provided with opposing faces and having one end connected to the fork-like part and another free end; (c) said projection decreasing in cross-sectional area from said one end to said free end and being adapted to be received in the cavity of a tooth; (d) said projection having a trapezoidal cross-section wherein said trapezoidal cross-section of said one end being inverted in relation to said trapezoidal cross-section of said free end; (e) said projection having a plurality of lateral sides having substantially flat surfaces sloping from said one end to said free end; and (f) at least one of said lateral sides of said projection comprises: a recess for receiving a retention pin that engages a tooth to affix the tooth in a desired position.
 2. The device according to claim 1, wherein said projection further comprises: an upper face having a convex shape.
 3. The device according to claim 1, wherein said projection further comprises: a lower face having a substantially flat shape.
 4. The device according to claim 1, wherein said recess extends substantially from one said face of said projection to the other said face of said projection.
 5. The device according to claim 1, wherein said recess further comprises: a widened region at a distance from one of said faces of said projection, and wherein said device further comprises a retention pin; and a locking member projecting transversely from said retention pin, said widened region being adapted to receive said locking member of said retention pin.
 6. The device as in claim 5, wherein said locking member is connected to said pin by a resilient member.
 7. The device of claim 6, wherein said locking member has rounded edges.
 8. The device of claim 5, in which said retention pin has a rectangular generally parallelepipedal form.
 9. The device according to claim 1, in which said fork-like part further comprises: a rear face attached to said one end of said projection and a region of said projection adjacent said rear face.
 10. The device of claim 1, wherein said trapezoidal cross-section of said one end and said trapezoidal cross-section of said free end are taken in separate planes that are orthogonal to a longitudinal axis of the tooth-carrier. 